Stability of Rhodamine Lactone Cycle in Solutions: Chain–Ring Tautomerism, Acid–Base Equilibria, Interaction with Lewis Acids, and Fluorescence

Colorants Pub Date : 2022-02-24 DOI:10.3390/colorants1010006

O. Obukhova, N. Mchedlov-Petrossyan, N. Vodolazkaya, L. Patsenker, A. Doroshenko

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引用次数: 2

Abstract

The equilibrium between different tautomers that can be colored or colorless is an important feature for rhodamine dyes. Presently, this phenomenon is mostly discussed for rhodamine B. Herein, we studied the tautomerism and acid–base dissociation (HR+ ⇄ R + H+) of a set of rhodamines in organic media. Form R is an equilibrium mixture of the colored zwitterion R± and colorless lactone R0. Absorption spectra in 90 mass% aqueous acetone reflects the correlation between the dyes structure and the equilibrium constant, KT = [R0]/[R±]. Increase in the pKa value on transferring from water to organic solvents confirms the highly polar character of the R± tautomer. To reveal the role of the solvent nature, the tautomerism of an asymmetrical rhodamine, 2-(12-(diethyliminio)-2,3,5,6,7,12-hexahydro-1H-chromeno[2,3-f]pyrido[3,2,1-ij]quinolin-9-yl)benzoate, was examined in 14 media. This chain–ring tautomerism is an intramolecular acid–base reaction; the central carbon atom acts as a Lewis acid. The interaction with other Lewis acids, Li+, Ca2+, Mg2+, and La3+, results in rupture of lactone cycle. In polar solvents, lactones undergo photocleavage resulting in formation of highly fluorescent R±, whereas the blue fluorescence and abnormally high Stokes shift in low-polar media may be explained either by another photoreaction or by spiroconjugation and charge transfer in the exited state.

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罗丹明内酯循环在溶液中的稳定性:链环互变异构、酸碱平衡、与路易斯酸的相互作用和荧光

不同的互变异构体之间的平衡是罗丹明染料的一个重要特征。目前，这一现象多见于罗丹明b。在此，我们研究了一组罗丹明在有机介质中的互变异构和酸碱解离(HR+ R+ H+)。形式R是有色两性离子R±和无色内酯R0的平衡混合物。在质量为90 %的丙酮水溶液中，染料的吸收光谱反映了染料结构与平衡常数KT = [R0]/[R±]之间的关系。从水转移到有机溶剂时pKa值的增加证实了R±互变异构体的高极性特性。为了揭示溶剂性质的作用，研究了不对称罗丹明2-(12-(二乙基氨基)-2,3,5,6,7,12-六氢- 1h -铬[2,3-f]吡啶[3,2,1-ij]喹啉-9-基)苯甲酸酯在14种介质中的互变异构性。这种链环互变异构是一种分子内酸碱反应;中心的碳原子起路易斯酸的作用。与Li+、Ca2+、Mg2+、La3+等Lewis酸的相互作用导致内酯循环断裂。在极性溶剂中，内酯发生光裂解，形成高荧光R±，而在低极性介质中，蓝色荧光和异常高的斯托克斯位移可能是由另一种光反应或激发态的螺旋共轭和电荷转移来解释的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Colorants

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